DE2615629B2 - Shield support frame - Google Patents

Description

The invention relates to a shield support frame consisting of a base construction and a one-piece, The hanging end cap is pivotably connected to the fracture shield via two joints and through at least one stamp of the sole structure which is supported in an articulated manner on the sole structure is distanced, the punch is also articulated at its upper end.

In a previously known shield support frame of this type (DE-OS 2116365), in which the one-piece hanging cap is made relatively wide, a one-piece fracture shield is hinged to the sole construction to which the hanging cap is pivotably attached via two joints. This allows the Hangendkapp ^ Perform tilting movements around a horizontal axis running parallel to the working face. But not So-called rolling movements of the hanging end cap are possible, i. H. Moves one lengthways of the frame extending axis, so that the adaptability of the hanging end cap to the hanging wall is limited.

It is already a shield support frame of a slightly different type, but also with a relatively wide hanging end cap previously known (DE-OS 2320960), in which the Hangendkappe mitte's of a single universal joint is hinged on the fracture shield, so that the hanging end cap not only tilting movements, but can also perform rolling movements. However, this requires that the hanging end cap also rotate can run around a vertical axis; this is undesirable because this is wedge-shaped gaps between the adjacent hanging end caps of shield support frames arranged next to one another are created, can get into the work area through the mountain offset. This storage also leads to the hanging end cap on the rupture shield to the fact that the hanging end cap must be made relatively stiff and therefore heavy.

The invention is based on the object of a shield support frame of the type specified at the beginning to the effect that the hanging end cap adapt better to unevenness of the hanging wall can and is capable of both tilting and so-called rolling movements about a lengthwise direction of the frame running axis to be able to run, but a turning of the hanging end cap is excluded in the horizontal about a vertical axis.

According to the invention, this object is achieved in that the fracture shield consists of two adjacent, each articulated with the sole construction and adjustable in height Shield elements and that the two connecting joints between the Hangendkappe and the both fracture shield elements are designed as universal joints.

There are already shield support frames (DE-OS 2307954 and the magazine "Glückauf" 108 [1972], No. 2, p. A29), in which the fracture shield consists of two shield elements. With these shield support frames however, each shield element is connected to its own hanging end cap, which accordingly are narrow. The two hanging end caps are hinged to the shield elements in such a way that that they can only perform a tilting movement, but not a rolling movement.

In contrast to this, in the shield support frame designed according to the invention, despite a "Two-point mounting" the hanging end cap not only tilts, but also rolls carry out. A rotary movement of the cap about a vertical axis, however, is essentially thereby prevents the cap from being supported at two spaced-apart locations, which in addition, enables a correspondingly light construction of the cap.

Advantageous embodiments of the invention are shown in

specified in the subclaims. With regard to the lemniscate guidance addressed in claim 5 vyird to the Russian literature reference Mechanized Dismantling Comprehensive Facility "Tula", Nedra Moscow publishing house 1967 - p. 112 referenced, from the lemniscate guides of the specified type are known in principle.

An exemplary embodiment of the invention is explained in more detail with reference to the drawings. It shows

Fig. 1 is a side view of a shield support frame,

Fig. 2 is a front view of the shield support frame,

3 shows a section on an enlarged scale through the components shown above in FIG. 2,

Fig. 4 is a plan and plan view of the base construction of the shield support frame, the The hanging end cap and the fracture shield are shown,

5 shows a plan view of the shield support frame on a reduced scale,

6 shows a section along the line VI-VI in FIG. 1.

The shield support frame shown consists of two essentially identical units, the side on Side are set up. Each unit consists of a lying threshold 1, a shield element 2, a first Handlebar 3, a second handlebar 4 and an extendable punch 5. The handlebar 4 is by means of a Pin 6 pivotably arranged, which is through holes in the upright flanges 7 on the Rear side of the sleeper 1 extends. The link 3 is in a corresponding manner around a pin 9 pivotable, which see also in holes of the flange 7 is arranged. At the other ends are the handlebars 3 and 4 articulated by means of pins 11 and 12 on the flanges 13, which are located on the inside of the shield element 2 are located.

The second unit consists of a lying sill 21, a shield element 22, a first Link 23, a second link 24 and a punch 25. Both links 23, 24 of the second unit are also hinged to upright flanges 27, which are provided on the back of the sleeper 21 and carry pins 26 and 29 which extend through the flanges 27 at a distance. The others Ends of the links 23 and 24 are by means of pins 31 and 32 on flanges 33 on the inside of the Shield element 22 articulated.

The two units are attached side by side, that is, side by side, with a number of connections is provided between them, which on the one hand ensure cohesion and on the other hand a allow independent movement of parts of the two units to some extent. With these Connections are as follows:

a) a flexible joint in the form of a leaf spring element 34, which is attached to the front edges of the flanges 7 and 27 is fixed by screws;

b) a connection 36 attached to the upper front edges of the shield elements 2 and 22. This Connection 36 is shown on an enlarged scale in Fig. 3 and consists of a metal strip, which is attached to each shield element by means of brackets 37 and 38. Each bracket is on the The end face of the corresponding shield element is provided with a slot 39 or 41, in which the ends of the connecting strip 36 are recorded. So that the connecting strip 36 is held in the bracket 37, 38, each bracket has a bolt 42 and 43, the shaft extends through a much larger hole in the connecting strip 36. The mode of action the connection 36 is that a substantial mutual movement between the two Schildeiementen in one Avoided direction parallel to their length, but a different mutual movement is permitted;

c) a one-piece hanging end cap 44 is disposed at the other end of the shield elements 2 and 22 and is articulated with each shield element. On the shield element 2, the articulated connection is a universal joint consisting of a ball head 46, which is formed at the upper end of the shield element 2 and engages in a socket 47 on the underside of the cap 44. A pin, not shown, can be arranged between the ball head 46 and the socket 47 so that they are held together. For the shield element 22, the articulated connection consists of a ball head, not shown, which engages in a socket, also not shown, on the underside of the rail 44, this ball head and the socket essentially corresponding to parts 46 and 47 of the shield element 2. In order to adjust the angular position of the cap 44 with respect to the shield elements 2 and 22, two hydraulic adjusting cylinders 48 and 49 are provided next to one another or next to the ball joints below the cap, the cylinders 48, 49 being supported on an abutment 51 of the shield element 2.
The adjusting cylinders 48 and 49 adjust the cap 44 about the axis running through the center point of the universal joints. The cap 44 can also be pivoted about an axis running at right angles to this axis, by means of independent height adjustments of the two shield elements 2 and 22;

d) Furthermore, a bridge member 52 is attached to the sleepers 1 and 21 via joints 53 and 54. The axes of the joints 53, 54 run parallel to the longitudinal extension of the sleepers 1.21 and have such a game that the lying sleepers against each other a horizontal axis is easily movable in the plane of the leaf spring element 34;

e) two resilient leaf spring elements 55 and 56 are between the upper links 3 and 23 attached. For this purpose, each upper link 3 or 23 is provided with an inwardly directed one Flange 57 provided. The leaf spring elements 55,56 are on each side of the flanges 57 by means Bolt 58 screwed. The leaf spring elements 55, 56 can form an additional auxiliary shield, in order to avoid the entry of fracture mountains at the lower ends of the shield elements. For each unit are the links and the articulated connections between these links and the sleeper and the shield arranged so that the ball connection on the upper End of the shield element in the event of an angular movement of the shield element above the lying threshold is limited to movement in a substantially straight line in one to the Longitudinal extension of the sleeper runs in a right-angled direction, this movement by actuating the stamp, of course

is controlled. The links and their articulated connections do not allow the shield elements to perform any movement other than the angular movement in a plane which is formed by the fore and aft direction of the sleeper and the aforementioned substantially straight line. Since the sleepers are parallel, the shield elements must also move in parallel planes. The stamp is supported on the hanging and lying threshold on spherical joints. The hydraulic adjusting cylinders 48 and 49, which control the inclination of the top cap, may each have a pressure relief valve which is arranged so that a load applied to it near the front end of the cap cannot exert sufficient force to displace the entire structure around the To let the front edges of the sleeper tilt.
When setting up the construction racks, they are set up side by side in front of the dismantling front in a row, with the caps 44 extending forward in order to protect the space directly on the dismantling front in the area of the conveyor. The conveyor is attached to the support frames by means of a step cylinder. The crotch cylinders are not shown in the drawing, but are located in the space between the sleepers 1 and 21 and are hinged to the bridge member 52. This means that each stepping cylinder can move the entire support frame forwards and backwards.

The sleepers are on the outside and on the back with side protection 61 and 62 Mistake. The outer edge of the shield elements is also provided with a downwardly extending one Side protection 63 and 64 provided. Such a side protection, e.g. B. the side protection 63, can be arranged adjustable so that it rests against a side guard 64 of an adjacent frame. the Cap 44 may also include a pair of downwardly extending side shields 65 and 66 which are arranged opposite the side protection parts 63 and 64. Again, one of these can Side protection parts, e.g. B. the side protection 65 to be adjustable to the outside.

When setting up the support racks, the caps 44 of each rack face forward and form an open space in which the conveyor can be placed. All punches 5 and 25 are put under pressure and press the caps ge _Ä en the hanging wall. Each stamp has its own valve so that it can be adjusted independently of the other stamps when excessive loads occur. In the usual way, the racks can be relieved of pressure together so that they can be pushed in the direction of the dismantling front, whereupon the stamps are set again. As soon as one of the racks is put back in place, the canopy falls down on the hanging wall, with a high probability of a swiveling movement occurring when the canopy comes fully into contact with the irregular hanging wall. This movement of the cap is made possible by pivoting it about an axis that runs parallel to the mining front and through both universal joints at the ends of the shield elements, as well as by pivoting it about a longitudinal axis that runs at right angles to the mining front and which is achieved through different height settings of the shield elements 2 and 22 results. Since the universal joints at the upper ends of the shield elements are limited to movement in the vertical direction, different height settings of the shield elements do not cause any angular movement of the cap about a vertical axis. The lying down is also uneven, so that the lying sleepers 1 and 21 also have to adapt to the lying down. For this purpose, the two sleepers 1 and 21 are connected to one another by means of the leaf spring element 34, so that there is a mutual angular movement between the sleepers about a horizontal axis in the plane of the leaf spring element 34, this being made possible by rotating the element 34. The bridge member 52, which is fastened by means of the joints 53 and 54 to the sleepers at a distance from the leaf spring element 34, cannot prevent such an angular movement, since the joints 53 and 54 have a corresponding play. However, the bridge member 52 seeks to maintain a constant distance between the sleepers and prevents mutual angular movement between the sleepers about a vertical axis.

If the shield elements are at slightly different heights under the effect of the stamp 5 and set 25 to allow pivoting of the cap, so the Biattfedereiemente earn 55, 56 when the links 3 and 23 assume different angular positions.

Within the framework defined by the invention, various changes can be made to the carry out the illustrated embodiment:

a) The sleepers 1 and 21 can be designed as a unit, with a central one Have channel for receiving the writing cylinder. In this case the advantage is the The flexibility between the two sleepers has been lost, but it still exists the flexibility between the shield members to pivot the cap about a longitudinal one Axis.

b) The stamp or stamps can be placed directly between the lying sleeper or sleepers and the top cap act, the shield elements then at their upper ends are worn on the cap.

For this purpose 2 sheets of drawings

Claims (6)

Patent claims: 1. Shield support frame consisting of a base construction and a one-piece, over two Hinged end cap pivotably connected to the fracture shield, through at least a stamp, which is supported in an articulated manner on the sole construction, distances itself from the sole construction is, wherein the stamp is articulated at its upper end, characterized in that that the fracture shield consists of two juxtaposed, each with a Jer sole construction (1) articulated and different height adjustable shield elements (2, 22) and that the two connecting joints are designed as universal joints (46, 47) between the hanging end cap (44) and the two fracture shield elements (2, 22). 2. Shield support frame according to claim 1, in which two stamps are provided, characterized in that that the stamp (5, 25) in a known manner directly on parts of the hanging end cap (44) attack. 3. shield support frame according to claim 1, wherein two stamps are provided, characterized in that that the stamp (5, 25) in a known manner on the breakage shield elements (2, 22) attack, in this case between the hanging end cap (44) and the breakage shield elements (2, 22) in a manner known per se, one adjusting cylinder (48, 49) is provided. 4. shield support frame according to claim 1 or one of the preceding claims, characterized in that that the breakage shield elements (2, 22) by a spring device (55, 56) in a Position are biased in which the joints (46, 67) have the same height adjustment. 5. shield support frame according to claim 4 when using a lemniscate guide between the two fracture shield elements and the sole construction, characterized in that the Spring device from two the two upper links (3, 23) of the lemniscate guides (3, 4 and 23, 24) of the rupture shield elements (2, 22) connecting leaf spring elements (55, 56). 6. shield support frame according to claim 1 or one of the preceding claims when used a two-part sole construction, each of which has a lying sill and a breakage shield element (2, 22) is assigned, characterized in that between the two! Lying sleepers (1, 21) of the sole construction, a leaf spring element (34) is arranged.